US2176813A - Welding implement - Google Patents
Welding implement Download PDFInfo
- Publication number
- US2176813A US2176813A US173347A US17334737A US2176813A US 2176813 A US2176813 A US 2176813A US 173347 A US173347 A US 173347A US 17334737 A US17334737 A US 17334737A US 2176813 A US2176813 A US 2176813A
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- US
- United States
- Prior art keywords
- coupling
- handle
- annular
- cutting tool
- oxygen
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
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Classifications
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F23—COMBUSTION APPARATUS; COMBUSTION PROCESSES
- F23D—BURNERS
- F23D14/00—Burners for combustion of a gas, e.g. of a gas stored under pressure as a liquid
- F23D14/46—Details, e.g. noise reduction means
- F23D14/465—Details, e.g. noise reduction means for torches
Definitions
- ' such as that used with oxygen and fuel gases 5 is to provide a handle into which the gases are led by suitable hose connections with separate storage tanks for each gas.
- This vhandle is provided with two longitudinally extending 'conduits controlled at the hose connecting end by in means of individual valves and provided at the g opposite end with separate chambers, usually annular, into which the conduits empty.
- the operator using the cutting tool has one hand around the handle and usually over the joint at the coupling, for that is where the extra oxygen supply valve lever is located. Any leakage of gases at this point, in the case of a flareback or a spark thrown from the work, causes an instant flame resulting oftentimes in serious injuries to the hand of the operator.
- Fig. l is a plan view partly in cross section of the welding handle and cutting tool coupled together, showing in dotted lines the operators hand in usual operating position;
- Fig. 2 is an enlarged cross-sectional view of a l0 portion of the handle end and a similar form of coupling
- Fig. 3 is a View in perspective showing one of the coupling members detached from the cutting tool and from the handle;
- Fig.' 4 is a View substantially similar to Fig. 2 showing a modified form of the coupling.
- the handle is generally designated by the numeral I0, and the cutting tool by the numeral I I. These parts are secured together by clamping 20 nut l2. Hand tightening of nut I2 is sufficient when employing my invention.
- Handle ID is used both in the cutting operation and in the Welding operation.
- the welding attachment is secured to the end 25 of handle III by a clamping nut similar to I2, but it is not illustrated as the coupling may be substantially identical with the one used on the cutting tool. However, the problem withV the welding attachment is not as great as with the 30 cutting tool. In welding the hand of the operator is not placed over the coupling nut I2 (see Fig. 1) so that there is not the chance of injury to the operators hand. Nor does the welding tool have a separate shut-01T valve I6 as does 35 the cutting tool, which gives rise to considerable back pressure 'and chance for leakage at the coupling when using the cutting tool:
- the cutting tool Il is designed to provide two different types of discharge at its nozzle I3. 40
- the gases emitted from outer conduits I4 preheat the metal to be cut and when the operator observes that the metal has reached the correct temperature, handle I5 controlling valve I6 is depressed, resulting in a rapid emission of oxygen through center conduit I1. This extra supply of oxygen causes the burning out of the metal.
- handle I5 controlling valve I6 is depressed, resulting in a rapid emission of oxygen through center conduit I1. This extra supply of oxygen causes the burning out of the metal.
- the operator releases handle I5, closing valve I6 (shown in closed position in Fig. 1), with the result that there is 50 considerable back pressure placed on the coupling between the cutting tool and the handle. This pressure, of course, remains until such time as valve IS is again opened and the oxygen flows freely through conduit Il.
- When using the cutting tool, oxygen control valve 2
- Acetylene valve 22 is used to regulate the acetylene for the preheating flame.
- 6 it is the presence in the cutting tool of valve l
- the problem is not a new one and has existed as long as this type of cutting tool has been in use.
- handle I0 is provided at one end with valves 2
- This coupling member on the end of handle I6 l is generally designated by the numeral 21 and is threaded at 28 and 30 to receive the handle bar-- rel 29 and clamping nut I2 respectively.
- Annular recess 26 preferably extends the full distance around the coupling face and communicates with acetylene conduit 24, through a series of interconnecting feed holes 3
- Cylindrical chamber 25 is connected to oxygen conduit 23 and is shown in the center of coupling member 21 and separated from annular recess 26 by wall 32 having an inner tapered face 33.
- the outer wall 34 ⁇ of coupling 21 has a tapered face 35 vextending from annular chamber 26 to the end 36 of coupling 21. Faces 33 and 35 are preferably in alignment a1- though 'this is notan essential characteristic so long as the other coupling member is made to correspond.
- the cutting tool tapered coupling member generally designated by the numeral 40, is shown separable from the main cutting tool at its threaded portion 4
- tral conduit 42 which opens into chamber 25 of the handle and has conduits 43 which open into annular groove 44 adapted to align with annular recess 26;
- Conduit 42 conducts the oxygen from the handle into the cutting tool at 50 from whence the oxygen is controlled by valve
- Conduit 42 and annular recess 44 in coupling 40 are separated by a partition or wall 5
- the latter member is held in place by flange 55, or if preferred it may be bonded to the ⁇ recess when formed, or it may be cemented in place.
- Annular recess 44 is also bounded by Wall 6D having a tapered face 6
- Adjacent wall 60 and extending in the opposite direction from recess 44 is another recess 62 adapted to receive a resilient packing member 63.
- Packing members 54 and 63 likewise have tapered vfaces which extend slightly beyond tapered faces 52 and 6
- This coupling member has the cenfaces are also in intimate leak-tight contact with resilient packing members 54 and 63 with the result that there is no leakage of oxygeninto the fuel gas chamber or vice versa, nor is there any leakage of one or both of these gases beyond bases 6
- the resilient packings will effect a perfect seal regardless of any imperfections causing the adjacent metal faces not to seal.
- the packing members 54 and 63 may be placed on the male member as in the construction just described or they may be placed in suitable re- ⁇ Waits on the female member as shown in Fig. 4, a modification.
- Fig. 4 the acetylene conduits 3
- Cylindrical wall 32 separating conduits 3 l and 26 has a tapered face 33 with an annular recess 10 to receive a resilient Washer 1
- Tapered face 35 extending fromthe end of the female coupling 21 to the edge of chamber 26 is also provided with a recess 12v to receive a resilient packing member 13.
- These packing members bear against tapered faces 14 and -15 on like coupling member 46. They, like packing members 54 and 63 may be loose washers which snap into the recess, or they may be bonded or cemented therein.
- a coupling comprising a male member, a female member, and a coupling nut threadably arranged to draw said male and female members together axially, said male and female members having inner and outer conduits disposed in registry, said inner and outer male member conduits being of diierent axial extent, annular shoulders terminally surrounding said male member inner conduit and having a washer receiving groove therebetween, a resient annular Washer disposed in said groove, said shoulders and washer defining a frustoconical surface; annular shoulders terminally surrounding said male member outer conduit and having a washer receiving groove therebetween, a-resil ient annular washer disposed in said groove, said WasherV and one of said annular ⁇ shoulders defining a frustoconical surface; separated frustoconical receiving surfaces formed in said female member, each positioned to engage one of said resilient washers having a frustoconically defined shoulder associated therewith on said male member.
- a coupling comprising a male member, a
- said gas and oxygen conduits being axially separated: an 'annular shoulder formed on said male member adjacent said yoxygen conduit terminal portion, an annular resilient sealing mem ber disposed adjacent said shoulder and reiining therewith a conical surface, and a second annular shoulder positioned adjacent said sealing member; an annular shoulder iormed adjacent vsaid conduit portiom'an annular resilient sealing member positioned adjacent said shoulder and defining therewith a conical surface, and a second annular shoulder-formed adjacent said annular sealing member: a female member.
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- Engineering & Computer Science (AREA)
- Chemical & Material Sciences (AREA)
- Combustion & Propulsion (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Gas Burners (AREA)
Description
l Patented Oct. 17, 1939 UNITED STATES PATENT OFFICE WELDING IMPLEMENT George L. Hammon, Berkeley, Calif. Application November 8, 1937, Serial No. 173,347
2 Claims.
'such as that used with oxygen and fuel gases 5 is to provide a handle into which the gases are led by suitable hose connections with separate storage tanks for each gas. This vhandle is provided with two longitudinally extending 'conduits controlled at the hose connecting end by in means of individual valves and provided at the g opposite end with separate chambers, usually annular, into which the conduits empty. The
last mentioned end also is generally threaded on the outside to receive a clamping nut to hold l5 in place onthis end of the handle either the welding torch or the cutting attachment.
When in use it is the usual practice for Welders to change from the welding torch to the cutting attachment and vice versa anywhere from six to ten times an hour, depending upon the type of work involved.
During the changeover, the metal mating surfaces of the couplings, one on the end of the handle and theA other on the end of the cutting torch or welding tool, are exposed and subject to injury by denting, etc. After slight use it is difficult, if not impossible, to secure these parts together with a leak-tight t, and particularly is this so with the cutting tool. Also, making the changeover-*hasv always required'the use of a wrench,-a timcconsuming operation.
The operator using the cutting tool has one hand around the handle and usually over the joint at the coupling, for that is where the extra oxygen supply valve lever is located. Any leakage of gases at this point, in the case of a flareback or a spark thrown from the work, causes an instant flame resulting oftentimes in serious injuries to the hand of the operator.
It is therefore anobject of my invention tor provide an improved coupling member for use.
in attaching the cutting to'ol to the handle; to provide a coupling which is not easily injured when the parts are exposed and liable to be v5 dropped and knocked about; to provide a coupling having at least one surface pliant enough to conform to any irregularitiesin the other surface; to provide a coupling member for attachment to the cutting tool and capable of use with handles long in service having a mutilated coupling face; to provide a coupling member with a plurality of conduits suitable for quick attachment to equipment now in use; to provide a cou- -pling with which a tight, leak-proof joint can be u effected merely by hand tightening of the clamp- (Cl. 15S-27.4)
ing nut, thereby saving the time heretofore required when employing a wrench.
'Other objects and advantages of my invention will appear from the following description taken in connection with the drawing in which: 5
Fig. l is a plan view partly in cross section of the welding handle and cutting tool coupled together, showing in dotted lines the operators hand in usual operating position;
Fig. 2 is an enlarged cross-sectional view of a l0 portion of the handle end and a similar form of coupling;
Fig. 3 is a View in perspective showing one of the coupling members detached from the cutting tool and from the handle; and
Fig.' 4 is a View substantially similar to Fig. 2 showing a modified form of the coupling.
The handle is generally designated by the numeral I0, and the cutting tool by the numeral I I. These parts are secured together by clamping 20 nut l2. Hand tightening of nut I2 is sufficient when employing my invention.
Handle ID is used both in the cutting operation and in the Welding operation.
The welding attachment is secured to the end 25 of handle III by a clamping nut similar to I2, but it is not illustrated as the coupling may be substantially identical with the one used on the cutting tool. However, the problem withV the welding attachment is not as great as with the 30 cutting tool. In welding the hand of the operator is not placed over the coupling nut I2 (see Fig. 1) so that there is not the chance of injury to the operators hand. Nor does the welding tool have a separate shut-01T valve I6 as does 35 the cutting tool, which gives rise to considerable back pressure 'and chance for leakage at the coupling when using the cutting tool:
The cutting tool Il is designed to provide two different types of discharge at its nozzle I3. 40 The gases emitted from outer conduits I4 preheat the metal to be cut and when the operator observes that the metal has reached the correct temperature, handle I5 controlling valve I6 is depressed, resulting in a rapid emission of oxygen through center conduit I1. This extra supply of oxygen causes the burning out of the metal. When the cut is completed, the operator releases handle I5, closing valve I6 (shown in closed position in Fig. 1), with the result that there is 50 considerable back pressure placed on the coupling between the cutting tool and the handle. This pressure, of course, remains until such time as valve IS is again opened and the oxygen flows freely through conduit Il. When using the cutting tool, oxygen control valve 2| is opened all the way, throwing all the load on valve I6. Acetylene valve 22, however, is used to regulate the acetylene for the preheating flame. Thus, it is the presence in the cutting tool of valve l|6 for the oxygen located beyond coupling 40 which ac-` centuates the problem solved by the present invention. The problem is not a new one and has existed as long as this type of cutting tool has been in use.
As indicated,handle I0 is provided at one end with valves 2| and 22 connected respectively to the oxygen and acetylene or other fuel gas supber if the designer preferred.
This coupling member on the end of handle I6 l is generally designated by the numeral 21 and is threaded at 28 and 30 to receive the handle bar-- rel 29 and clamping nut I2 respectively. Annular recess 26 preferably extends the full distance around the coupling face and communicates with acetylene conduit 24, through a series of interconnecting feed holes 3|. Cylindrical chamber 25 is connected to oxygen conduit 23 and is shown in the center of coupling member 21 and separated from annular recess 26 by wall 32 having an inner tapered face 33. The outer wall 34` of coupling 21 has a tapered face 35 vextending from annular chamber 26 to the end 36 of coupling 21. Faces 33 and 35 are preferably in alignment a1- though 'this is notan essential characteristic so long as the other coupling member is made to correspond.
In the form shown, the cutting tool tapered coupling member, generally designated by the numeral 40, is shown separable from the main cutting tool at its threaded portion 4| to permit replacement. tral conduit 42 which opens into chamber 25 of the handle and has conduits 43 which open into annular groove 44 adapted to align with annular recess 26; Conduit 42 conducts the oxygen from the handle into the cutting tool at 50 from whence the oxygen is controlled by valve |6 actuated by handle l5.
For the purposes of the present invention it is not necessary to describe further the construction or operation of the cutting tool inasmuch as this may be varied in many of its details and still require the use of the present invention.
- Clamping nut` |2 engages shoulder 65 on coupling and when screwed onto handle coupling member 21, by hand pressure alone, secures a leak-tight joint. No wrenchis needed in tightvening nut |2, regardless'of imperfections in the metal faces of the couplings.
The packing members 54 and 63 may be placed on the male member as in the construction just described or they may be placed in suitable re-` cesses on the female member as shown in Fig. 4, a modification.
In Fig. 4 the acetylene conduits 3| empty into chamber 26 and the oxygen conduit empties into chamber 25. Cylindrical wall 32 separating conduits 3 l and 26 has a tapered face 33 with an annular recess 10 to receive a resilient Washer 1|. Tapered face 35 extending fromthe end of the female coupling 21 to the edge of chamber 26 is also provided with a recess 12v to receive a resilient packing member 13. These packing members bear against tapered faces 14 and -15 on like coupling member 46. They, like packing members 54 and 63 may be loose washers which snap into the recess, or they may be bonded or cemented therein.
In the drawing the metallic meeting faces of the coupling members are shown separated for the purpose of clarity. Actually, it is preferred to have these faces, as Well as the rubber faces,
in contact.
Usually there is not a great d eal of' heat at t-he coupling so that rubber washers will give satisfactory service. so with the intention that the Word is used to described a class of materials having the necessary qualities of resiliency, lnon-porosity.4etc.
The two constructions described set forth the invention in its preferred form, but are not intended to limit it to these particular constructions except as required by the claims.
What I claim is:
1. In awelding an'd cutting torch, a coupling, comprising a male member, a female member, and a coupling nut threadably arranged to draw said male and female members together axially, said male and female members having inner and outer conduits disposed in registry, said inner and outer male member conduits being of diierent axial extent, annular shoulders terminally surrounding said male member inner conduit and having a washer receiving groove therebetween, a resient annular Washer disposed in said groove, said shoulders and washer defining a frustoconical surface; annular shoulders terminally surrounding said male member outer conduit and having a washer receiving groove therebetween, a-resil ient annular washer disposed in said groove, said WasherV and one of said annular`shoulders defining a frustoconical surface; separated frustoconical receiving surfaces formed in said female member, each positioned to engage one of said resilient washers having a frustoconically defined shoulder associated therewith on said male member.
2. In combination with a welding and cutting torch, a coupling, comprising a male member, a
In referring to rubber, I do aimais ffemale member, and a coupling nut arranged to draw said members axially together, vsaid male and female members having inner gas conduits disposed in registry and having-cuter oxygen conduits disposed in registry, the terminal portions o! said gas and oxygen conduits being axially separated: an 'annular shoulder formed on said male member adjacent said yoxygen conduit terminal portion, an annular resilient sealing mem ber disposed adjacent said shoulder and reiining therewith a conical surface, and a second annular shoulder positioned adjacent said sealing member; an annular shoulder iormed adjacent vsaid conduit portiom'an annular resilient sealing member positioned adjacent said shoulder and defining therewith a conical surface, and a second annular shoulder-formed adjacent said annular sealing member: a female member.
having separated irustoconlcal receiving surfaces formed therein, said surfaces being positioned to cooperate with said resilient sealing members and said annular shoulders to form metal'to metal sealing contact adjacent said gas conduit terminal portions and to permit said resilient sealing members to flow into position separating the cooperating frustoconical surfaces from the oxygen conduit portions.
' GEORGE L. HAMMON.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US173347A US2176813A (en) | 1937-11-08 | 1937-11-08 | Welding implement |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US173347A US2176813A (en) | 1937-11-08 | 1937-11-08 | Welding implement |
Publications (1)
Publication Number | Publication Date |
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US2176813A true US2176813A (en) | 1939-10-17 |
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Application Number | Title | Priority Date | Filing Date |
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US173347A Expired - Lifetime US2176813A (en) | 1937-11-08 | 1937-11-08 | Welding implement |
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Cited By (9)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2476777A (en) * | 1945-10-01 | 1949-07-19 | Smith Welding Equipment Corp | Combination welding and cutting torch |
US2518895A (en) * | 1946-10-10 | 1950-08-15 | Linde Air Prod Co | Hand blowpipe |
US2519939A (en) * | 1945-11-23 | 1950-08-22 | Smith Welding Equipment Corp | Cutting torch |
US2535873A (en) * | 1948-10-27 | 1950-12-26 | Smith Welding Equipment Corp | Oxygen-acetylene torch |
US2536201A (en) * | 1946-04-19 | 1951-01-02 | Linde Air Prod Co | Thermochemical metal removal method and apparatus |
US2659623A (en) * | 1948-12-07 | 1953-11-17 | Metallizing Engineering Co Inc | Gun construction for gas blast spraying heat-fusible materials |
US2677416A (en) * | 1948-09-25 | 1954-05-04 | Smith Welding Equipment Corp | Oxygen and acetylene torch |
US2881826A (en) * | 1956-07-16 | 1959-04-14 | Air Reduction | Cutting torch tip |
US3749320A (en) * | 1972-07-11 | 1973-07-31 | Epsilon Sa | Oxygen cutting and welding torches |
-
1937
- 1937-11-08 US US173347A patent/US2176813A/en not_active Expired - Lifetime
Cited By (9)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2476777A (en) * | 1945-10-01 | 1949-07-19 | Smith Welding Equipment Corp | Combination welding and cutting torch |
US2519939A (en) * | 1945-11-23 | 1950-08-22 | Smith Welding Equipment Corp | Cutting torch |
US2536201A (en) * | 1946-04-19 | 1951-01-02 | Linde Air Prod Co | Thermochemical metal removal method and apparatus |
US2518895A (en) * | 1946-10-10 | 1950-08-15 | Linde Air Prod Co | Hand blowpipe |
US2677416A (en) * | 1948-09-25 | 1954-05-04 | Smith Welding Equipment Corp | Oxygen and acetylene torch |
US2535873A (en) * | 1948-10-27 | 1950-12-26 | Smith Welding Equipment Corp | Oxygen-acetylene torch |
US2659623A (en) * | 1948-12-07 | 1953-11-17 | Metallizing Engineering Co Inc | Gun construction for gas blast spraying heat-fusible materials |
US2881826A (en) * | 1956-07-16 | 1959-04-14 | Air Reduction | Cutting torch tip |
US3749320A (en) * | 1972-07-11 | 1973-07-31 | Epsilon Sa | Oxygen cutting and welding torches |
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